mask_siteid_sampling <- site_protocol_quanti[
site_protocol_quanti$variable == "year" &
site_protocol_quanti$n >= 10,
]$siteid
mask_siteid_protocol <- site_protocol_quali[
site_protocol_quali$unitabundance %in% c("Count", "Ind.100m2"), ]$siteid
mask_siteid <- mask_siteid_sampling[mask_siteid_sampling %in% mask_siteid_protocol]
dir_plot <- here("doc", "fig", "raw_data")
if (!dir.exists(dir_plot)) {
dir.create(dir_plot)
}
abun_rich_nested <- filtered_dataset$abun_rich_op %>%
nest_by(siteid)
library(furrr)
plan(multisession, workers = 3)
future_walk2(abun_rich_nested$data, abun_rich_nested$siteid,
function (x, y, ...) {
png(paste0(dir_plot, "/species_nb_site_", y, ".png"), width = 500, height = 500*1/1.6)
p <- plot_community_data(
dataset = x, y = "species_nb", x = "year", title = y)
print(p)
dev.off()
})
future_walk2(abun_rich_nested$data, abun_rich_nested$siteid,
function (x, y, ...) {
png(paste0(dir_plot, "/species_nb_site_", y, ".png"), width = 500, height = 500*1/1.6)
p <- plot_community_data(
dataset = x, y = "total_abundance", x = "year", title = y)
print(p)
dev.off()
})
library(mapview)
#> Warning in (function (n) : input string '/home/alain/Téléchargements/R-4.0.5/
#> library/methods/R/methods' cannot be translated to UTF-8, is it valid in
#> 'ANSI_X3.4-1968'?
#> Warning in (function (n) : input string '/home/alain/Téléchargements/R-4.0.5/
#> library' cannot be translated to UTF-8, is it valid in 'ANSI_X3.4-1968'?
library(leafpop)
tar_load(filtered_dataset)
loc <- filtered_dataset$location %>%
left_join(filtered_dataset$site_quali, by = "siteid") %>%
st_as_sf(coords = c("longitude", "latitude"),
crs = 4326)
site_richness <- filtered_dataset$measurement %>%
group_by(siteid) %>%
summarise(tot_nb_species = length(unique(species)))
op_richness_summary <-
filtered_dataset$abun_rich_op %>%
group_by(siteid) %>%
summarise(enframe(summary_distribution(species_nb)), .groups = "drop") %>%
pivot_wider(names_from = "name", values_from = "value") %>%
rename(median_richness = median)
var_map_view <- c("siteid", "protocol", "unitabundance", "unitbiomass", "min",
"max", "completeness", "tot_nb_richness", "median_richness")
loc2 <- loc %>%
left_join(op_richness_summary, by = "siteid") %>%
select(any_of(var_map_view)) %>%
left_join(site_richness, by = "siteid") %>%
select(any_of(var_map_view))
mapView(loc2, zcol = "protocol")
get_file_plot_in_tbl <- function(
directory = NULL,
str_file_to_match = NULL,
regex_pattern = NULL) {
file_plot_site <- list.files(directory, full.names = TRUE)
filtered_file_plot_site <- file_plot_site[
str_detect(file_plot_site, str_file_to_match)]
names(filtered_file_plot_site) <- str_extract(filtered_file_plot_site,
regex_pattern)
filtered_file_plot_site <- enframe(
filtered_file_plot_site,
name = "siteid",
value = "file"
)
}
abun_file_plot_site_tbl <- get_file_plot_in_tbl(
directory = "fig/raw_data",
str_file_to_match = "tot_abun",
regex_pattern = "S\\d+"
)
richness_file_plot_site_tbl <- get_file_plot_in_tbl(
directory = dir_plot,
str_file_to_match = "species_nb",
regex_pattern = "S\\d+") %>%
rename(richness = file)
loc2 <- loc %>%
select(siteid, protocol) %>%
left_join(abun_file_plot_site_tbl, by = "siteid") %>%
left_join(richness_file_plot_site_tbl, by = "siteid")
m <- mapView(loc2, zcol = "protocol",
popup = popupImage(loc2$file)
)
mapshot(m, url = "map_abundance.html",
selfcontained = FALSE,
)
m2 <- mapView(loc2, zcol = "protocol",
popup = popupImage(loc2$richness)
)
mapshot(m2, url = "map_richness.html",
selfcontained = FALSE
)
trends_data <- abun_rich_op %>%
left_join(op_protocol, by = "op_id") %>%
filter(siteid %in% mask_siteid) %>%
mutate(
log_total_abundance = log(total_abundance),
log_species_nb = log(species_nb)
)
plot_trends <- trends_data %>%
group_by(siteid) %>%
nest() %>%
ungroup() %>%
slice_sample(n = 100) %>%
mutate(
p_abun = map2(data, siteid,
~plot_community_data(
dataset = .x, y = "total_abundance", x = "year", title = .y)),
p_rich = map2(data, siteid,
~plot_community_data(
dataset = .x, y = "species_nb", x = "year", title = .y),
)
)
n_plot_by_batch <- 8
map(
split(
seq_len(nrow(plot_trends)),
1:floor(nrow(plot_trends) / n_plot_by_batch) + 1),
~plot_grid(plotlist = plot_trends[.x, ]$p_abun)
)
#> Warning in split.default(seq_len(nrow(plot_trends)), 1:floor(nrow(plot_trends)/
#> n_plot_by_batch) + : la taille de données n'est pas un multiple de la variable
#> découpée
#> Warning in simpleLoess(y, x, w, span, degree = degree, parametric =
#> parametric, : pseudoinverse used at 2007
#> Warning in simpleLoess(y, x, w, span, degree = degree, parametric =
#> parametric, : neighborhood radius 2
#> Warning in simpleLoess(y, x, w, span, degree = degree, parametric =
#> parametric, : reciprocal condition number 0
#> Warning in predLoess(object$y, object$x, newx = if
#> (is.null(newdata)) object$x else if (is.data.frame(newdata))
#> as.matrix(model.frame(delete.response(terms(object)), : pseudoinverse used at
#> 2007
#> Warning in predLoess(object$y, object$x, newx = if
#> (is.null(newdata)) object$x else if (is.data.frame(newdata))
#> as.matrix(model.frame(delete.response(terms(object)), : neighborhood radius 2
#> Warning in predLoess(object$y, object$x, newx = if
#> (is.null(newdata)) object$x else if (is.data.frame(newdata))
#> as.matrix(model.frame(delete.response(terms(object)), : reciprocal condition
#> number 0
#> $`2`
#>
#> $`3`
#>
#> $`4`
#>
#> $`5`
#>
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#>
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#>
#> $`9`
#>
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#>
#> $`11`
#>
#> $`12`
#>
#> $`13`
map(
split(
seq_len(nrow(plot_trends)),
1:floor(nrow(plot_trends) / n_plot_by_batch) + 1
),
~plot_grid(plotlist = plot_trends[.x, ]$p_rich)
)
#> Warning in split.default(seq_len(nrow(plot_trends)), 1:floor(nrow(plot_trends)/
#> n_plot_by_batch) + : la taille de données n'est pas un multiple de la variable
#> découpée
#> Warning in simpleLoess(y, x, w, span, degree = degree, parametric =
#> parametric, : pseudoinverse used at 2007
#> Warning in simpleLoess(y, x, w, span, degree = degree, parametric =
#> parametric, : neighborhood radius 2
#> Warning in simpleLoess(y, x, w, span, degree = degree, parametric =
#> parametric, : reciprocal condition number 0
#> Warning in predLoess(object$y, object$x, newx = if
#> (is.null(newdata)) object$x else if (is.data.frame(newdata))
#> as.matrix(model.frame(delete.response(terms(object)), : pseudoinverse used at
#> 2007
#> Warning in predLoess(object$y, object$x, newx = if
#> (is.null(newdata)) object$x else if (is.data.frame(newdata))
#> as.matrix(model.frame(delete.response(terms(object)), : neighborhood radius 2
#> Warning in predLoess(object$y, object$x, newx = if
#> (is.null(newdata)) object$x else if (is.data.frame(newdata))
#> as.matrix(model.frame(delete.response(terms(object)), : reciprocal condition
#> number 0
#> $`2`
#>
#> $`3`
#>
#> $`4`
#>
#> $`5`
#>
#> $`6`
#>
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#>
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#>
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#>
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#>
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#>
#> $`12`
#>
#> $`13`
tar_load(toy_dataset)
unique(toy_dataset$siteid)
#> [1] "S8633" "S11138" "S534" "S529" "S11219"
plot_temporal_biomass <- function (bm_data = NULL, biomass_var = NULL, com = NULL, .log = FALSE) {
#main_title <- paste0("Stab = ", round(1/(sync$cv_com), 2),", ", "Sync = ",
#round(sync$synchrony, 2),", ", "CVsp = ", round(sync$cv_sp, 2))
sym_bm_var <- rlang::sym(biomass_var)
# Total
total_biomass <- bm_data %>%
group_by(date) %>%
summarise(!!sym_bm_var := sum(!!sym_bm_var, na.rm = FALSE))
p <- bm_data %>%
mutate(label = if_else(date == max(date), as.character(species), NA_character_)) %>%
ggplot(aes_string(x = "date", y = biomass_var, color = "species")) +
geom_line() +
lims(y = c(0, max(total_biomass[[biomass_var]]))) +
labs(
#title = main_title, subtitle = paste0("Station: ", station),
y = "Biomass (g)", x = "Sampling date"
) +
ggrepel::geom_label_repel(aes(label = label),
size = 2.5, nudge_x = 1, na.rm = TRUE)
#Â Add total biomass
p2 <- p +
geom_line(data = total_biomass, aes(color = "black", size = 3)) +
theme(legend.position = "none")
# Add summary: richness, connectance, stab, t_lvl, sync, cv_sp
com %<>%
mutate_if(is.double, round(., 2))
label <- paste(
"S = ", com$bm_std_stab,
"sync = ", com$sync,
"CVsp = ", com$cv_sp,
"R = ", com$rich_tot_std,
"C = ", com$ct,
"Tlvl = ", com$t_lvl
)
p3 <- p2 +
annotate("text", x = median(total_biomass$date),
y = 15, label = label)
if (.log) {
p3 <- p3 + scale_y_log10()
}
return(p3)
}
ti <- toy_dataset %>%
filter(siteid == unique(toy_dataset$siteid)[2])
plot_population <- function (dataset = NULL, y_var = NULL, time_var = NULL) {
sym_y_var <- rlang::sym(y_var)
sym_time_var <- rlang::sym(time_var)
# Total
total_dataset <- dataset %>%
group_by(!!sym_time_var) %>%
summarise(!!sym_y_var := sum(!!sym_y_var, na.rm = FALSE))
p <- dataset %>%
mutate(label = if_else(!!sym_time_var == max(!!sym_time_var), as.character(species), NA_character_)) %>%
ggplot(aes_string(x = time_var, y = y_var, color = "species")) +
geom_line() +
lims(y = c(0, max(total_dataset[[y_var]]))) +
labs(
#title = main_title, subtitle = paste0("Station: ", station),
y = "Biomass (g)", x = "Sampling time_var"
) +
ggrepel::geom_label_repel(aes(label = label),
size = 2.5, nudge_x = 1, na.rm = TRUE)
#Â Add total biomass
p2 <- p +
geom_line(data = total_dataset, aes(color = "black", size = 3)) +
theme(legend.position = "none")
return(p2)
}
plot_population(dataset = ti, y_var = "abundance", time_var = "year")
#> Warning: ggrepel: 12 unlabeled data points (too many overlaps). Consider
#> increasing max.overlaps
plot_temporal_population(com = ti, ribbon = FALSE)
p <- plot_temporal_population(com = ti, ribbon = TRUE)
GeomRibbon$handle_na <- function(data, params) { data }
p$data %>%
ggplot(
aes(y = abundance, ymin = ymin, ymax = ymax, x = year,
fill = species)
) +
geom_ribbon()
set.seed(1)
test <- data.frame(x = rep(1:10, 3), y = abs(rnorm(30)), z = rep(LETTERS[1:3],
10)) %>% arrange(x, z)
test[test$x == 4, "y"] <- NA
test$ymax <- test$y
test$ymin <- 0
zl <- unique(test$z)
for (i in 2:length(zl)) {
zi <- test$z == zl[i]
zi_1 <- test$z == zl[i - 1]
test$ymin[zi] <- test$ymax[zi_1]
test$ymax[zi] <- test$ymin[zi] + test$ymax[zi]
}
# fix GeomRibbon
GeomRibbon$handle_na <- function(data, params) { data }
ggplot(test, aes(x = x, y=y, ymax = ymax, ymin = ymin, fill = z)) +
geom_ribbon()
toy_dataset %>%
group_by(siteid, year, species) %>%
summarise(test=n()>1) %>%
filter(test)
pop_trends <- toy_dataset %>%
filter(!siteid %in% c("S534", "S8633")) %>%
group_by(siteid) %>%
nest() %>%
mutate(
p_pop = map(data, ~plot_temporal_population(com = .x, ))
)
#> Note: Using an external vector in selections is ambiguous.
#> ℹ Use `all_of(species_var)` instead of `species_var` to silence this message.
#> ℹ See <https://tidyselect.r-lib.org/reference/faq-external-vector.html>.
#> This message is displayed once per session.
#> Note: Using an external vector in selections is ambiguous.
#> ℹ Use `all_of(y_var)` instead of `y_var` to silence this message.
#> ℹ See <https://tidyselect.r-lib.org/reference/faq-external-vector.html>.
#> This message is displayed once per session.
#> Note: Using an external vector in selections is ambiguous.
#> ℹ Use `all_of(species)` instead of `species` to silence this message.
#> ℹ See <https://tidyselect.r-lib.org/reference/faq-external-vector.html>.
#> This message is displayed once per session.
pop_trends$p_pop
#> [[1]]
#> Warning: Removed 280 rows containing missing values (position_stack).
#>
#> [[2]]
#>
#> [[3]]
#> Warning: Removed 104 rows containing missing values (position_stack).
Reproducibility receipt
## datetime
Sys.time()
#> [1] "2021-12-15 17:46:01 CST"
## repository
if(requireNamespace('git2r', quietly = TRUE)) {
git2r::repository()
} else {
c(
system2("git", args = c("log", "--name-status", "-1"), stdout = TRUE),
system2("git", args = c("remote", "-v"), stdout = TRUE)
)
}
#> Local: main /home/alain/Documents/post-these/isu/RivFishTimeBiodiversityFacets
#> Head: [b37b196] 2021-12-15: Fix choose from multiple op + add the super maps
## session info
sessionInfo()
#> R version 4.0.5 (2021-03-31)
#> Platform: x86_64-pc-linux-gnu (64-bit)
#> Running under: Debian GNU/Linux 10 (buster)
#>
#> Matrix products: default
#> BLAS: /home/alain/.Renv/versions/4.0.5/lib/R/lib/libRblas.so
#> LAPACK: /home/alain/.Renv/versions/4.0.5/lib/R/lib/libRlapack.so
#>
#> locale:
#> [1] LC_CTYPE=fr_FR.UTF-8 LC_NUMERIC=C
#> [3] LC_TIME=fr_FR.UTF-8 LC_COLLATE=fr_FR.UTF-8
#> [5] LC_MONETARY=fr_FR.UTF-8 LC_MESSAGES=fr_FR.UTF-8
#> [7] LC_PAPER=fr_FR.UTF-8 LC_NAME=C
#> [9] LC_ADDRESS=C LC_TELEPHONE=C
#> [11] LC_MEASUREMENT=fr_FR.UTF-8 LC_IDENTIFICATION=C
#>
#> attached base packages:
#> [1] stats graphics grDevices utils datasets methods base
#>
#> other attached packages:
#> [1] leafpop_0.1.0 mapview_2.10.0 codyn_2.0.5
#> [4] janitor_2.1.0 cowplot_1.1.1 rnaturalearthdata_0.1.0
#> [7] rnaturalearth_0.1.0 sf_1.0-4 rmarkdown_2.11
#> [10] scales_1.1.1 kableExtra_1.3.1 here_1.0.1
#> [13] lubridate_1.7.9.2 magrittr_2.0.1 forcats_0.5.1
#> [16] stringr_1.4.0 dplyr_1.0.4 purrr_0.3.4
#> [19] readr_2.1.1 tidyr_1.1.2 tibble_3.1.6
#> [22] ggplot2_3.3.3 tidyverse_1.3.0 tarchetypes_0.3.2
#> [25] targets_0.8.1 conflicted_1.1.0
#>
#> loaded via a namespace (and not attached):
#> [1] leafem_0.1.6 colorspace_2.0-0 ellipsis_0.3.2
#> [4] class_7.3-18 leaflet_2.0.4.1 rprojroot_2.0.2
#> [7] satellite_1.0.4 snakecase_0.11.0 base64enc_0.1-3
#> [10] fs_1.5.1 rstudioapi_0.13 farver_2.0.3
#> [13] ggrepel_0.9.1 fansi_0.5.0 xml2_1.3.2
#> [16] codetools_0.2-18 splines_4.0.5 cachem_1.0.4
#> [19] knitr_1.36 jsonlite_1.7.2 broom_0.7.4
#> [22] cluster_2.1.1 dbplyr_2.1.0 png_0.1-7
#> [25] compiler_4.0.5 httr_1.4.2 backports_1.2.1
#> [28] assertthat_0.2.1 Matrix_1.3-2 fastmap_1.1.0
#> [31] cli_3.1.0 leaflet.providers_1.9.0 htmltools_0.5.1.1
#> [34] tools_4.0.5 igraph_1.2.6 gtable_0.3.0
#> [37] glue_1.5.1 Rcpp_1.0.6 raster_3.4-5
#> [40] cellranger_1.1.0 jquerylib_0.1.3 vctrs_0.3.8
#> [43] svglite_2.0.0 nlme_3.1-152 crosstalk_1.1.1
#> [46] xfun_0.28 ps_1.6.0 rvest_0.3.6
#> [49] lifecycle_1.0.1 MASS_7.3-53.1 hms_1.1.1
#> [52] parallel_4.0.5 yaml_2.2.1 memoise_2.0.0
#> [55] sass_0.3.1 stringi_1.7.6 highr_0.9
#> [58] e1071_1.7-4 permute_0.9-5 systemfonts_1.0.0
#> [61] rlang_0.4.12 pkgconfig_2.0.3 evaluate_0.14
#> [64] lattice_0.20-41 labeling_0.4.2 htmlwidgets_1.5.3
#> [67] processx_3.5.2 tidyselect_1.1.1 bookdown_0.24
#> [70] R6_2.5.1 generics_0.1.0 DBI_1.1.1
#> [73] pillar_1.6.4 haven_2.3.1 withr_2.4.3
#> [76] mgcv_1.8-34 units_0.6-7 sp_1.4-5
#> [79] modelr_0.1.8 crayon_1.4.2 uuid_1.0-3
#> [82] KernSmooth_2.23-18 utf8_1.2.2 tzdb_0.2.0
#> [85] grid_4.0.5 readxl_1.3.1 data.table_1.13.6
#> [88] git2r_0.29.0 callr_3.7.0 vegan_2.5-7
#> [91] reprex_1.0.0 digest_0.6.27 classInt_0.4-3
#> [94] webshot_0.5.2 brew_1.0-6 stats4_4.0.5
#> [97] munsell_0.5.0 viridisLite_0.3.0 bslib_0.2.4